Allaouchiche B, Debon R, Goudable J, Chassard D, Duflo F
Department of Anesthesiology and Intensive Care, EA 18/96, Hotel-Dieu Hospital, Lyon, France, and Department of Biochemistry, Edouard Herriot Hospital, Lyon, France.
Anesth Analg. 2001 Oct;93(4):981-5. doi: 10.1097/00000539-200110000-00036.
We evaluated the circulating and lung oxidative status during general anesthesia established with propofol, sevoflurane, or desflurane in mechanically ventilated swine. Blood samples and bronchoalveolar lavage fluid (BAL) specimens were respectively performed via an internal jugular vein catheter and a nonbronchoscopic BAL for baseline oxidative activity measurements: malondialdehyde (MDA), superoxide dismutase (SOD), and glutathione peroxidase (GPX). A 4-h general anesthesia was then performed in the three groups of 10 swine: the Propofol group received 8 mg x kg(-1) x h(-1) of IV propofol as the sole anesthetic; the Desflurane group received 1.0 minimum alveolar concentration of desflurane; and the Sevoflurane group received 1.0 minimum alveolar concentration of sevoflurane. We observed significantly larger levels of MDA in plasma and BAL during desflurane exposure than with the other anesthetics. We also observed smaller concentrations of circulating GPX and alveolar GPX. We found a significant decrease for MDA measurements in the plasma and the pulmonary lavage during propofol anesthesia. We also found larger values of GPX measurements in the serum and the pulmonary lavage. No significant changes were observed when animals were exposed to sevoflurane. No significant changes were found for circulating concentrations of SOD during exposure to all anesthetics. In this mechanically ventilated swine model, desflurane seemed to induce a local and systemic oxidative stress, whereas propofol and sevoflurane were more likely to have antioxidant properties.
Superoxide is an unavoidable byproduct of oxygen metabolism that occurs in various inflammatory reactions. Inhalation of volatile anesthetics under mechanical ventilation induces an inflammatory response. We evaluated the bronchoalveolar and systemic oxidative stress in swine during exposure to propofol and newer volatile anesthetics. Desflurane induces more lipid peroxidation than do the other anesthetics.
我们评估了在机械通气猪中使用丙泊酚、七氟醚或地氟醚建立全身麻醉期间的循环和肺部氧化状态。通过颈内静脉导管和非支气管镜灌洗分别采集血样和支气管肺泡灌洗(BAL)样本,用于基线氧化活性测量:丙二醛(MDA)、超氧化物歧化酶(SOD)和谷胱甘肽过氧化物酶(GPX)。然后对三组各10头猪进行4小时的全身麻醉:丙泊酚组静脉输注8mg·kg⁻¹·h⁻¹丙泊酚作为唯一麻醉剂;地氟醚组吸入1.0最低肺泡浓度的地氟醚;七氟醚组吸入1.0最低肺泡浓度的七氟醚。我们观察到,与其他麻醉剂相比,地氟醚暴露期间血浆和BAL中MDA水平显著更高。我们还观察到循环GPX和肺泡GPX浓度较低。我们发现丙泊酚麻醉期间血浆和肺灌洗中MDA测量值显著降低。我们还发现血清和肺灌洗中GPX测量值较高。动物暴露于七氟醚时未观察到显著变化。在所有麻醉剂暴露期间,循环SOD浓度均未发现显著变化。在这个机械通气猪模型中,地氟醚似乎会诱导局部和全身氧化应激,而丙泊酚和七氟醚更可能具有抗氧化特性。
超氧化物是氧代谢不可避免的副产物,发生在各种炎症反应中。机械通气下吸入挥发性麻醉剂会诱导炎症反应。我们评估了猪在暴露于丙泊酚和新型挥发性麻醉剂期间的支气管肺泡和全身氧化应激。地氟醚比其他麻醉剂诱导更多的脂质过氧化。
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